Physical chemistry for the biological sciences.
A new edition with complete, up-to-date and expanded material for a working knowledge of physical chemistry for the biological sciencesThe second edition of Physical Chemistry for the Biological Sciences builds on the success of the first edition with important updates and new material to provide a...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Hoboken, New Jersey :
Wiley,
[2015]
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Edición: | Second edition / |
Colección: | Methods of biochemical analysis ;
volume 55. |
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Title Page; Copyright; Table of Contents; Preface to First Edition; Preface to Second Edition; THERMODYNAMICS; Chapter 1: Heat, Work, and Energy; 1.1 INTRODUCTION; 1.2 TEMPERATURE; 1.3 HEAT; 1.4 WORK; 1.5 DEFINITION OF ENERGY; 1.6 ENTHALPY; 1.7 STANDARD STATES; 1.8 CALORIMETRY; 1.9 REACTION ENTHALPIES; 1.10 TEMPERATURE DEPENDENCE OF THE REACTION ENTHALPY; REFERENCES; PROBLEMS; Chapter 2: Entropy and Gibbs Energy; 2.1 INTRODUCTION; 2.2 STATEMENT OF THE SECOND LAW; 2.3 CALCULATION OF THE ENTROPY; 2.4 THIRD LAW OF THERMODYNAMICS; 2.5 MOLECULAR INTERPRETATION OF ENTROPY; 2.6 GIBBS ENERGY.
- 2.7 CHEMICAL EQUILIBRIA2.8 PRESSURE AND TEMPERATURE DEPENDENCE OF THE GIBBS ENERGY; 2.9 PHASE CHANGES; 2.10 ADDITIONS TO THE GIBBS ENERGY; PROBLEMS; Chapter 3: Applications of Thermodynamics to Biological Systems; 3.1 BIOCHEMICAL REACTIONS; 3.2 METABOLIC CYCLES; 3.3 DIRECT SYNTHESIS OF ATP; 3.4 ESTABLISHMENT OF MEMBRANE ION GRADIENTS BY CHEMICAL REACTIONS; 3.5 PROTEIN STRUCTURE; 3.6 PROTEIN FOLDING; 3.7 NUCLEIC ACID STRUCTURES; 3.8 DNA MELTING; 3.9 RNA; REFERENCES; PROBLEMS; Chapter 4: Thermodynamics Revisited; 4.1 INTRODUCTION; 4.2 MATHEMATICAL TOOLS; 4.3 MAXWELL RELATIONS.
- 4.4 CHEMICAL POTENTIAL4.5 PARTIAL MOLAR QUANTITIES; 4.6 OSMOTIC PRESSURE; 4.7 CHEMICAL EQUILIBRIA; 4.8 IONIC SOLUTIONS; REFERENCES; PROBLEMS; CHEMICAL KINETICS; Chapter 5: Principles of Chemical Kinetics; 5.1 INTRODUCTION; 5.2 REACTION RATES; 5.3 DETERMINATION OF RATE LAWS; 5.4 RADIOACTIVE DECAY; 5.5 REACTION MECHANISMS; 5.6 TEMPERATURE DEPENDENCE OF RATE CONSTANTS; 5.7 RELATIONSHIP BETWEEN THERMODYNAMICS AND KINETICS; 5.8 REACTION RATES NEAR EQUILIBRIUM; 5.9 SINGLE MOLECULE KINETICS; REFERENCES; PROBLEMS; Chapter 6: Applications of Kinetics to Biological Systems; 6.1 INTRODUCTION.
- 8.5 MOLECULAR ORBITAL THEORY8.6 HARTREE-FOCK THEORY AND BEYOND; 8.7 DENSITY FUNCTIONAL THEORY; 8.8 QUANTUM CHEMISTRY OF BIOLOGICAL SYSTEMS; REFERENCES; PROBLEMS; SPECTROSCOPY; Chapter 9: X-ray Crystallography; 9.1 INTRODUCTION; 9.2 SCATTERING OF X-RAYS BY A CRYSTAL; 9.3 STRUCTURE DETERMINATION; 9.4 NEUTRON DIFFRACTION; 9.5 NUCLEIC ACID STRUCTURE; 9.6 PROTEIN STRUCTURE; 9.7 ENZYME CATALYSIS; REFERENCES; PROBLEMS; Chapter 10: Electronic Spectra; 10.1 INTRODUCTION; 10.2 ABSORPTION SPECTRA; 10.3 ULTRAVIOLET SPECTRA OF PROTEINS; 10.4 NUCLEIC ACID SPECTRA; 10.5 PROSTHETIC GROUPS.